Publikationen

PUBLIKATIONSLISTE · 1985 bis 2016

  1. Schade, W., Nick, K.-P. und Helbig, V., Spectral Line Shapes, Vol. 3, F. Rostas, ed., 59 (1985)
    Broadening and shift of Neon I lines.
  2. Kröll, S., Lundberg, H., Persson, A., Schade, W., Svanberg, S.; Proc. of Second Europ. Conf. on Atomic and Molecular Physics , (Ed. de Vries, A.E., van der Wiel, M.J.) p. MO 11 (1985)
    Laser spectroscopy on atoms of refractory elements produced in hollow-cathode discharges.
  3. Bergström, H., Lundberg, H., Persson, A., Schade, W., Zhao, Y.Y., Physica Scripta 33, 513 (1986)
    Lifetime measurements in Ta II using a pulsed discharge.
  4. Schade, W. and Helbig, V., Phys. Lett. A 115, 39, (1986)
    Radiative lifetimes of Ta II.
  5. Schade, W., Langhans, G. and Helbig, V., Physica Scripta 36, 890, (1987)
    Lifetime measurements of V II levels using tunable subnanosecond uv-laser pulses.
  6. Schade, W., Mundt, B. and Helbig, V., J. Phys. B 21, 2691 (1988)
    Radiative lifetimes of Fe II levels.
  7. Schade, W., Langhans, G., Mundt, Helbig, V.; 3rd European Conference on Atomic and Molecular Physics, Vol. 13c of Europhysics Conference Abstracts, p. 66 (1989)
    Determination of atomic and ionic lifetimes from time-resolved fluorescence signals.
  8. Schade, W., Z.W. Stryla, V. Helbig und G. Langhans, Physica Scripta 39, 246 (1989)
    Radiative lifetimes of Argon II and Krypton II levels.

    1990

  9. Stryla, Z., Pobee, H., Schade, W. and Helbig, V., Phys. Rev. A 41, 512 (1990)
    Reexamination of the lifetime of the 3p8 level of Argon I.
  10. Schade, W., Garbe, B. und Helbig, V., Appl. Opt. 29, 3950 (1990)
    A temperature tuned distributed feedback dye laser with high repetition rate.
  11. Schade, W., Mundt, B. und Helbig, V., Phys. Rev. A 42, 1454 (1990)
    Radiative lifetimes of Cr II levels.
  12. Werner, J.A., Schade, W., Jeckström, W., Helbig, V. und Rudert, H. Laser in medicine and surgery 6, 184 (1990)
    Comparsion of Endotracheal Tube Safety during Carbon Dioxide Laser Surgery.
  13. Schade, W., Nick, K.-P., und Helbig V., Proc. XVth SPIG, Dubrovnik (1990)
    Determination of dynamic polarizibilities in neon. Laser Surgery.

    1991

  14. Schade, W., Laser und Optoelektronik 23(6), 63 (1991)
    Neuer Farbstofflaser mit verteilter Rückkopplung für die zeitaufgelöste Atomspektroskopie.
  15. Bengtsson, G.J., Hansen, K., Larsson, J., Schade, W., Svanberg, S., Z. Phys. D 22, 397 (1991)
    Determination of radiative lifetimes in neutral Nitrogen using short laser pulses from a DFDL.
  16. Schade, W. und Helbig; Proc. Int. Conf. Laser Spectroscopy, LASERION'91, München, p. 143 (1991)
    Frequency-stabilized distributed feedback dye laser for atomic and molecular spectroscopy.
  17. Lippert, B.M., Werner, J.A., Schade, W., Rudert, H.; Arch. Oto. Rhino. Largyngol. Suppl. II, 76 (1991)
    Zytostatika-induzierte Phototoxizität bei Plattenepithelkarzinomzellen - Erste erfolgversprechende Ergebnisse einer In-vitro-Untersuchung.

    1992

  18. Schade, W., Bublitz J., Nick, K.-P. und Helbig, V.; Lasers in Remote Sensing, V. Klein, K. Weber, Ch. Werner (Hrsg.), Springer-Verlag (1992), pp. 53-61
    Time- resolved laser-induced fluorescences spectroscopy for diagnostics of oil-pollution in water.
  19. Schade, W. und Raeth, M., Proc. 10th International Conference on Laser Spectroscopy, M. Ducloy, E. Giacobino and G. Camy (eds.) , p. 414, World Scientific (1992)
    The influence of magnetic fields on time-resolved laser-induced fluorescence measurements.
  20. Jeckström, W., Werner, J.A., Schade, W.; Laser in der Medizin, Waidelich, W., Waidelich, R., Hofstetter, A. (Hrsg.), p. 50, Springer-Verlag (1992)
    Physikalische Eigenschaften spezieller Laser-Endotrachealkatheter unter CO2-Laserlichtapplikation.
  21. Lippert, B.M., Werner, J.A., Schade, W., Rudert, H.; Laser in der Medizin, Waidelich, W., Waidelich, R., Hofstetter, A. (Hrsg.), p.128, Springer-Verlag (1992)
    Laserlicht-induzierte Zytotoxizität bei kultivierten Plattenepithelkarzinomzellen nach Zytostatika-Photosensibilisierung.
  22. Schade, W. und Bublitz, J.; Proc. 6th Int. Symposium on Resonance Ionization Spectroscopy and Its Applications, Santa Fe, Int. Phys. Conf. Ser. No. 128: Section 9 p. 317 (1992)
    Trace analysis of oil pollution by time-resolved laser spectroscopy - first results of field measurements.
  23. Schade, W., Werner, J.A., Gottschlich, S., Lippert, B.M., Helbig, V.; Proc. 6th Int. Symposium on Resonance Ionization Spectroscopy and Its Applications, Santa Fe, Int. Phys. Conf. Ser. No 128: Section 9, p. 321 (1992)
    Investigation of energy-transfer-processes in photosensitive molecules used for medical applications.

    1993

  24. Lippert, B.M., Werner, J.A., Görögh, T., Schade, W., Rudert, H.; Largyno-Rhino-Otol. 72, 63 (1993)
    Anthracyclinderivate als Photosensibilisatoren in der photodynamischen Laser- therapie: Eine In-vitro Untersuchung an Plattenepithelkarzinomzellen in der Mundhöhle.
  25. Schade, W., Wolejko, L. und Helbig, V., Phys. Rev. A, 47, 2099 (1993)
    The influence of polarization effects and magnetic fields on time-resolved laser- induced fluorences measurements.
  26. Schade, W. und Bublitz, J.; Laser und Optoelektronik, 25(4), 41 (1993)
    Neues Laserverfahren fur den Spurennachweis von Schadstoffbelastungen im Wasser und im Boden.
  27. Langhans, G., Schade, W. und Helbig V.; Phys. Lett. A, 183, 205 (1993)
    Lifetime measurements of the Kr III 5p 5P3 level by laser-induced fluorescence.

    1994

  28. Schade, W., Bublitz, J., Dickenhausen, M. and Grätz, M; in Laser Applications to Chemical Analysis, 1994 Technical Digest Series, Vol. 5, Optical Society of America, Washington, DC, pp. 179-182 (1994)
    A new fiber optic LIF-sensor for the detection of environmental pollutants.
  29. Schade, W. and Bublitz, J.; AIP Conference Proceedings 290, 261 (1994)
    Time-resolved laser spectroscopy for the trace analysis of PAH-molecules in water and in the ground.
  30. Knaack, A., Klatt, D., Schade, W., Horn, R. and Baumgartl, T.; Laser in Remote Sensing (ed. C. Werner and W. Waidelich), pp. 113-117, Springer-Verlag, Berlin (1994)
    A fiber optic LIF-sensor for measuring temporal and spatial distributions of tracers in the ground.
  31. Bublitz, J., Schade, W. and Dickenhausen, M.; Laser in Remote Sensing (ed. C.Werner and W. Waidelich), pp. 118-124, Springer-Verlag, Berlin (1994)
    Quantitative Analysis of PAH-molecules by time-resolved LIF-spectroscopy in water and in the ground.
  32. Bublitz, J., Dickenhausen, M., Todt, S., Grätz, M. und Schade, W.; Conference on Lasers and Electro-Optics Europe, IEEE Catalog Number 94TH0614-8, p.26 (1994)
    Trace analysis of aromatic hydrocarbons by time-integrated laser-induced fluorescence.

    1995

  33. Bublitz, J. und Schade, W.; GIT Fachzeitschrift für das Laboratorium 39, 117 (1995)
    Laserspektroskopie in der Umweltanalytik.
  34. Bublitz, J., Dickenhausen, M., Grätz, M., Todt, S., and Schade, W.; Appl. Opt. 34, 3223 (1995)
    A new fiber optic LIF-probe for the detection of environmental pollutants.
  35. Langhans, G., Schade, W., and Helbig, V.; Z. Phys. D 34, 151 (1995)
    Radiative lifetimes of neutral and singly ionized atoms of refractory elements.
  36. Knaack, A., Offt, A., Schade, W.; in Conference on Lasers and Electro Optics, Vol. 15, 1995 OSA Technical Digest Series (Optical Society of America, Washington, DC., 1995), pp. 407-408
    Picosecond-laser spectroscopy for quantitative combustion diagnostics.
  37. Bublitz, J., Knaack, A, Dickenhausen, M., Grätz, M., Schade, W., Baumgartl, T., Horn, R.; EARSeL Advances in Remote Sensing 3(3), 179 (1995)
    Fiber optic LIF-sensors for the trace analysis of environmental pollutants in water and in the soil.
  38. Offt, A., Knaack, A., Walewski, J., Schade, W.; SPIE-The International Society for Optical Engineering, Vol. 2506, 74-84 (1995)
    Quantitative diagnostics of flame radicals by picosecond-LIF-spectroscopy.
  39. Lippert, B.M., Schade, W., Gottschlich, S., Werner, J.A.; Adv. in Otorhinolaryngology 49, 39 (1995)
    Experimental Studies on the Phototoxic Effect of Cytostatic Agents - Results and Outlook.

    1996

  40. Bublitz, J., Schade, W.; SPIE-The International Society for Optical Engineering, Vol. 2504 (1996), pp. 265-277
    Multiwavelength LIF-spectroscopy for quantitative classification of aromatic hydrocarbons.
  41. Schade, W., Bublitz, J.; Environ. Sci. Technol., 30, 1451 (1996)
    On-site laser probes for the detection of petroleum products in water and in the soil.
  42. Bublitz, J., Christophersen, A., Schade, W.; Fresenius J. Anal. Chem. 355, 684 (1996)
    Laser-based detection of PAHs and BTXE aromatics in oil polluted soil samples.
  43. Schade, W., Walewski, J., Offt, A., Knaack, A.; Phys. Rev.A 53, R2921 (1996)
    Picosecond laser probing of rotational alignment of NO in CO2.
  44. Kretschmer, U., Consalvo, D., Knaack, A., Schade, W., Stahl, W., Dreizler, H.; Mol. Phys. 87, 1159 (1996)
    The 14N quadrupole hyperfine structure in the rotational spectrum of laser vaporized urea observed by molecular beam Fourier transform microwave spectroscopy.
  45. Schade, W., Blanke, T.; in Laser Applications to Chemical and Environmental Analysis, Vol. 3, 1996 OSA Technical Digest Series (Optical Society of America, Washington DC, 1996), pp. 229-231
    Diode-Laser-Based Detection of BTXE-Aromatics in Oil Polluted Soil Samples.
  46. Schade, W., Blanke, T.,Willer, U., Rempel, C.; Appl. Phys. B 63, 99 (1996)
    Compact tunable mid-infrared laser source by difference frequency generation of two diode-lasers.
  47. Schade, W., Blanke, T., Willer, U.; SPIE - The International Society for Optical Engineering, Vol. 2834, 233 (1996)
    Diode-laser MIR-DFG spectrometer for trace gas detection.

    1997

  48. Anthony, E.B., Schade, W., Bastian, M.J., Bierbaum, V.M. and Leone S.R.; J. Chem. Phys. 106, 5413 (1997)
    Laser probing of velocity-subgroup dependent rotational alignment of N2+ drifted in He.

    1998

  49. Schade, W., Bublitz, J.(invited); Robert A. Meyers, ed., Encyclopedia of Environmental Analysis and Remidiation, Vol. 4, New York, John Wiley & Sons, Inc., 1998, pp. 2489-2500.
    Laser-induced fluorescence spectroscopy in environmental monitoring.
  50. Schade, W., Osborn, D.L., Preusser, J., Leone, S.R.; Opt. Communications, 150, 27 (1998)
    Two-color cross-correlation of fs-laser pulses by two-photon induced photoconductivity for near and far field optical measurements.
  51. Petrov, V., Rempel, Ch., Stollberg, K.-P., Schade, W.; Appl. Opt., 37, 4925 (1998)
    Widely tunable continuous-wave mid-infrared laser source based on difference-frequency generation in AgGaS2.
  52. Blanke, T., Willer, U., Kracht, D., Schade, W.; in Laser Applications to Chemical and Environmental Analysis, Vol. 3, 1998 OSA Technical Digest Series (Optical Society of America, Washington DC, 1998), pp. 61-63.
    Diode-laser-difference frequency spectrometer for carbon monoxide detection.
  53. Schade, W., Osborn, D.L., Preusser, J., Leone, S.R.; in Laser Applications to Chemical and Environmental Analysis, Vol. 3, 1998 OSA Technical Digest Series (Optical Society of America, Washington DC, 1998), pp. 131-133.
    Spectroscopic characterization of semiconductor impurities by near-field scanning optical microscopy.
  54. Willer, U., Blanke, T., Kracht, D., Schade, W.; in Conference on Lasers and Electro-Optics, Vol. 6, 1998 OSA Technical Digest Series (Optical Society of America, Washington DC, 1998), pp. 152-153.
    MIR difference-frequency generation in AgGaS2 with diode lasers.
  55. Schade, W., Osborn, D.L., Preusser, J., Leone, S.R.; in International Quantum Electronics Conference, Vol. 7, 1998 OSA Technical Digest Series (Optical Society of America, Washington DC, 1998), pp. 229-230.
    Imaging of semiconductor surface impurities by femtosecond near-field photoconductivity.

    1999

  56. Dragnea,B., Preusser, J., Schade, W., Leone, S.R. Hinsberg, W.D.; J. Appl. Phys. 86, 2795 (1999)
    Transmission near-field scanning microscope for infrared chemical imaging.
  57. Schade, W., Preusser, J., Leone, S.R. Hinsberg, W.D.; Opt. Comm. 162, 200 (1999)
    Spatially resolved femtosecond time correlation measurements on a GaAsP photodiode.
  58. Blanke, T., Willer, U., Schade, W.; Environmental Sensing and Applications, SPIE Vol. 3821, 136 (1999)
    Spectroscopic applications of a widely tunable (6.8-12.5µm) cw-DFG-laser spectrometer.

    2000

  59. Willer, U., Blanke, T., Schade, W.; Laser Applications to Chemical and Environmental Analysis, OSA Technical Digest (Optical Society of America, Washington DC, 2000), 102
    MIR-Evanescent-Field Spectroscopy for Environmental Analysis.

    2001

  60. Willer, U.; Blanke, T.; Schade, W.; Proceedings - Spie the International Society for Optical Engineering, SPIE Vol. 4205, 232 (2001)
    MIR evanescent-field fiber sensors.
  61. Bublitz, J., Dölle, Ch., Schade, W., Hartmann, A., Horn, R.; European Journal of Soil Science, 52, 305 (2001)
    Laser-induced breakdown spectroscopy for soil diagnostics.
  62. Voss, T., Scheel, D., Schade, W.; Appl. Phys. B, 73, 105 (2001)
    A microchip-laser-pumped DFB-polymer-dye laser.
  63. Willer, U.; Blanke, T.; Schade, W.; Appl. Opt., 40, 5439 (2001)
    Difference frequency generation in AgGaS2: Sellmeier and temperature-dispersion equations.

    2002

  64. Willer, U.; Kostjucenko, I., Bohling, Ch., Zentgraf, T., Scheel, D., Schade, W.; Laser Applications to Chemical and Environmental Analysis, OSA Technical Digest (Optical Society of America, Washington DC), 2002, SaB4-1
    MIR-Evanescent-Field Spectroscopy for Environmental Analysis.
  65. Willer, U., Scheel, D., Kostjucenko, I., Bohling, C., Schade, W., Faber, E.; Spectrochimica Acta A, 58 (2002) pp. 2427-2432
    Fiber-optic evanescent-field laser sensor for in-situ gas diagnostics.

    2003

  66. Khorsandi, A., Willer, U., Geiser, P., Schade, W.; Iranian Journal of Physics Research, Vol. 3, No. 4 (2003)
    MIR-difference frequency laser spectrometer for CO detection in combustions.
  67. Sharma, A.K., Thareja, R.K., Willer, U., Schade, W.; Applied Surface Science; 206 (2003) pp. 137-148
    Phase transformation in room temperature pulsed laser deposited TiO2 thin films.
  68. Schade, W., Willer, U., Wondraczek, L.; Glass Sci. Technol. 76 C2 (2003), pp. 109-114
    Mid-infrared laser sensors for mapping environment and combustions.
  69. Khorsandi, A., Willer, U., Geiser, P., Schade, W.; Appl. Physics B, Vol. 77, No. 5 (2003), pp. 509-513
    External short-cavity diode-laser for MIR difference-frequency generation.

    2004

  70. Potma EO, Xie XS, Muntean L, Preusser J, Jones D, Ye J, Leone SR, Hinsberg WD, Schade W; Journal of Physical Chemistry B, Vol. 108, No. 4 (2004), pp. 1296-1301
    Chemical imaging of photoresists with coherent anti-Stokes Raman scattering (CARS) microscopy.
  71. Willer, U., Bohling, Ch., Schade, W.; Optics & Photonics News, Vol. 15, No. 3 (2004), pp. 18-23
    Using Laser Spectroscopy and Fiber Optic Sensors to Monitor Volcanoes.
  72. Romano, C., Gräser, S., Faulian, K., Schade, W., Holl, G.; Detection of Bulk Explosives, H. Schubert and A. Kuznetsov (eds.), Kluwer Academic Publishers (2004), pp. 167-173
    Application of LIBS Spectroscopy for Remote Bulk Detection of Explosives.
  73. Wondraczek, L., Khorsandi, A., Willer, U., Heide, G., Schade, W., Frischat, G.H.; Combustion and Flame, Vol. 138, Issues 1-2 (2004), pp. 30-39
    Mid-infrared laser-tomographic imaging of carbon monoxide in laminar flames by difference frequency generation.
  74. Wondraczek, L., Khorsandi, A., Willer, U., Schade, W., Frischat, G.H.; Glass Sci. Technol. 77, 2 (2004) pp. 68-76
    Mid-infrared laser absorption spectroscopy for process and emission control in the glass melting industry. Part I: Potentials.
  75. Wondraczek, L., Khorsandi, A., Willer, U., Schade, W., Frischat, G.H.; Glass Sci. Technol. 77, 3 (2004) pp. 131-136
    Mid-infrared laser absorption spectroscopy for process and emission control in the glass melting industry. Part II: Difference frequency based MIR laser spectrometer for glass melting furnaces.
  76. Khorsandi, A., Willer, U., Wondraczek, L., Schade, W.; Appl. Opt., Vol. 43, No. 35 (2004) pp. 6481-6486
    In situ and on-line monitoring of CO in an industrial glass furnace by mid-infrared difference-frequency laser spectroscopy.
  77. Willer, U., Bohling, Ch., Geiser, P., Schade, W.; Proceedings of SPIE Vol. 5502 (2004), pp. 504-507
    Infrared evanescent-field fiber sensor for in-situ mapping of volcano gases.

    2005

  78. Schade, W., Bohling, C., Hohmann, K., Scheel, D., Reuter, M., Holl, G. Anti-Personnel-Mine Detection by Laser-Induced Breakdown Spectroscopy. Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications, Systems and Technologies 2005 (Optical Society of America, Washington, DC, PWD3 (2005)
  79. Schade, W. , Khorsandi, A., Willer, U., Keune, T., Holl, G. Remote Detection of Explosives by MIR Laser Spectroscopy. Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications, Systems and Technologies 2005 (Optical Society of America, Washington, DC, PWD4 (2005),
  80. Schade, W., Geiser, P., Willer, U., A picosecond mid-infrared LIDAR system. Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications, Systems and Technologies 2005 (Optical Society of America, Washington, DC, JThI2 (2005),
  81. Schade, W., Willer, U.,  Bohling, C.,  Hohmann, K., Kleine-Ostmann, T.,  Koch, M. Fiber-Amplifier based THz-source using difference-frequency generation in a DAST crystal. Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications, Systems and Technologies 2005 (Optical Society of America, Washington, DC, JTuC6 (2005)

    2006

  82. C. Bohling, D. Scheel, K. Hohmann, W. Schade, M. Reuter, G. Holl,  Fiber-optic laser sensor for mine detection and verification , Appl. Opt. 45, 3817-3825 (2006).
  83. T. Voss, C. Bekeny, L. Wischmeier, H. Gafsi, S. Börner, W. Schade, A.C. Mofor, A. Bakin, A. Waag,  Influence of exciton-phonon coupling on the energy position of the near band-edge photoluminescence of ZnO nanowires, Appl. Phys. Lett. 89, 182107 (2006).
  84. L. Wischmeier, T. Voss, S. Börner, W. Schade, Comparison of the optical properties of as-grown ensembles and single ZnO nanowires, Appl. Phys. A 84, 111-116 (2006).
  85. L. Wischmeier, C. Bekeny, T. Voss, S. Börner, W. Schade, Optical properties of single ZnO nanowires, phys. stat. sol. b 243, 919-923 (2006).
  86. U. Willer, M. Saraji, A. Khorsandi, P. Geiser, and W. Schade, Near- and mid-infrared laser monitoring of industrial processes, environment and security applications, Optics and Lasers in Engineering 44, 699-710 (2006).
  87. C. Bauer, J. Burgmeier, C. Bohling, W. Schade, G. Holl, H. Schubert, R. Rimski-Korsakov (eds), Mid-infrared LIDAR for remote detection of explosives, Stand-off detection of suicide bombers and mobile subjects, 127-133, Springer (2006).
  88. C. Bauer, P. Geiser, J. Burgmeier, G. Holl, W. Schade, Pulsed laser surface fragmentation and mid-infrared laser spectroscopy for remote detection of explosives, Appl. Phys. B 85, 251-256 (2006).
  89. P. Geiser, U. Willer, D. Walter, W. Schade; A subnanosecond pulsed laser-source for mid-infrared LIDAR, Appl. Phys. B 83, 175-179 (2006).
  90. R. Wilk, M. Mikulics, W. Schippers, D. Nodop, U. Willer, W. Schade, M. Walther, H. Niemann, B. Guttler, M. Koch, Photomixing with LT-GaAsSb Antennas and a Two -Color Nd: LSB Microchiplaser, Joint 31 st International Conference on Infrared Millimeter Waves and  International Conference on Teraherz Electronics, 2006. IRMMW-THz 2006. (2006)
  91. W. Schade, C. Bohling, K. Hohmann, D. Scheel, Laser-induced plasma spectroscopy for mine detection and verification, Laser and Particle Beams 24:2, 241 (2006).
  92. W. Schade, C. Bohling, K. Hohmann, C. Bauer, R. Orghici, S. Waldvogel, D. Scheel, Photonische Sensoren für die Sicherheitstechnik, Photonik 4, 70-73 (2006).

    2007

  93. C. Bohling, K. Hohmann, D. Scheel, C. Bauer, W. Schippers, J. Burgmeier, U. Willer , G. Holl, W. Schade, All fiber coupled LIBS sensor for hazardous material analysis, Spectrochimica Acta B 62, 1519-1527 (2007)
  94. W. Schade, C. Bohling, K. Hohmann, C. Bauer, Photonic sensors for security applications, Photonik International 32-34 (2007).
  95. W. Schade, C. Bohling, C. Bauer, Sprengstoffen auf der Spur, Physik Journal 6, 25-30 (2007).
  96. S. Börner, C. E. Rüter, D. Kip, W. Schade, Modeling of ZnO nanorods for evanescent field optical sensors, phys. stat. sol. a 204, 3487-3495 (2007).
  97. U. Willer, R. Wilk, W. Schippers, S. Böttger, D. Nodop, T. Schossig, W. Schade, M. Mikulics, M. Koch, M. Walther, H. Niemann and B. Güttler,  A novel THz source based on a two color Nd: LSB microchiplaser and a LT-GaAsSb photomixer, Appl. Phys. B 87, 13-16 (2007).
  98. W. Schade, U. Willer, S. B¨orner, R. Orghici, C. Bauer, W. Schippers und S.R. Waldvogel; Novel Photonic Sensor Devices for Explosive and Gas Detection in  Frontier Developments in Optics and Spectroscopy; Bucher, Consulting, Logiciels, Progettare (Philadelphia, USA); Chapter 23, pp.1 –17 (2007)

    2008

  99. R. Orghici, U. Willer, M. Gierszewska, S. Waldvogel, W. Schade, Fiber optic evanescent field sensor for detection of explosives and CO2 dissolved in water. Appl. Phys. B 90, 355-360 (2008).
  100. W. Schade, C. Bauer, R. Orghici, S. Waldvogel, S. Börner. Miniaturized Photonic Sensor Devices for Real Time Eyxplosive Detection, Detection of Liquid Explosives and Flammable Agents in Connection with Terrorism, 215-227, Springer (2008).
  101. Christoph Bauer; Ulrike Willer; Andreas Pohlkötter; Anatoliy Kosterev; Dmitry Kosynkin; Frank. K. Tittel; Wolfgang Schade; Mid-Infrared QEPAS for TATP Detection, IPS 2008; POSTER
  102. C. Bauer; A.K. Sharma; U. Willer; J. Burgmeier; B. Braunschweig; W. Schade;  S. Blaser; L. Hvozdara; A. Müller; G. Holl; Potentials and limits of mid-infrared laser spectroscopy for the detection of explosives; Appl. Phys. B 92; 327-333 (2008)
  103. Christoph Bauer; Ulrike Willer; Andreas Pohlkötter; Anatoliy Kosterev; Dmitry Kosynkin; Frank. K. Tittel; Wolfgang Schade; Mid-Infrared QEPAS for TATP Detection, IPS 2008; ABSTRACT
  104. Christoph Bauer; Ulrike Willer; Ashwini Kumar Sharma;  Andreas Pohlkötter; Wolfgang Schade; A new photonic sensor device for TATP detection; LACSEA 2008
  105. W. Schade, R. Orghici, U. Willer und S.R. Waldvogel. Fiber-optic evanescentfield sensor device for CO2 and explosive detection; Proc. of SPIE, Vol. 7004, 700431–1 – 700431–4 (2008)

    2009

  106. Pohlkötter; U. Willer; C. Bauer; W. Schade; Resonant tuning fork detector for electromagnetic radiation; Applied Optics, Vol. 48, Nr. 4, B119-B125 (2009)
  107. U. Willer, A. Pohlkötter, W. Schade, J. Xu, T. Losco, R. P. Green, A. Tredicucci, H. E. Beere, D. A. Ritchie; Resonant tuning fork detector for THz radiation; OPTICS EXPRESS Vol. 17, No. 16; 14069-14074 (2009)
  108. U. Willer, W. Schade; Photonic sensor devices for explosive detection; Anal Bioanal Chem (2009)
  109. S. Börner, R. Orghici, S.R. Waldvogel, U. Willer and W. Schade; Evanescent field sensors and the implementation of waveguiding nanostructures; Applied Optics 48, B183-B189 (2009)
  110. J. Burgmeier, W. Schippers, W. Schade; Fiber optic Sensor System for Stress Monitoring in Power Cables; Conference on Lasers and Electro-Optics/Quantum Electronics, Optical Society of America; JWA67 (2009)

    2010

  111. R. Orghici; P.Lützow; J. Burgmeier;  J. Koch;  H. Heidrich; W. Schade; N. Welschoff  and S.R. Waldvogel; A Microring Resonator Sensor for Sensitive Detection of  1,3,5-Trinitrotoluene (TNT); Sensors, 10, 6788-6795 (2010)
  112. Pohlkötter, M. Köhring, U. Willer, W. Schade; Detection of Molecular Oxygen at Low Concentrations Using Quartz Enhanced Photoacoustic Spectroscopy; Sensors, 10, 8466-8477 (2010)
  113. M. Köhring , A. Pohlkötter, U.Willer, M. Angelmahr, W. Schade; Tuning fork enhanced interferometric photoacoustic spectroscopy: a new method for trace gas analysis; Applied Physics B, Vol. 102, 133-139, (2010)
  114. El-Shaer, A. Dev, J.-P. Richters, S. R. Waldvogel, J. Waltermann, W. Schade, T. Voss; Phys. Status Solidi B 247, 1564-1567 (2010)
  115. R. Orghici, P. Lützow, J. Burgmeier, W. Schade, N. Welschoff, S.R. Waldvogel; Photonic microring-chip-sensor for explosive detection; Laser Applications to Chemical and Environmental Analysis, Optical Society of America; LWC4 (2010)
  116. Bauer, U. Willer, W. Schade; Optical fiber setups for the improvement of chemical sensing; Laser Applications to Chemical and Environmental Analysis, Optical Society of America; LTuC3 (2010)
  117. U. Willer, C. Bauer, W. Schade; Quantum Cascade Lasers for the Detection of Hazardous Materials; Laser Applications to Chemical and Environmental Analysis, Optical Society of America; LWC5 (2010)
  118. Bauer, U. Willer, W. Schade; Use of quantum cascade lasers for detection of explosives: progress and challenges; Opt. Eng., Vol. 49, 1111261-1111267 (2010)

    2011

  119. U. Willer, R. Orghici, P. Lützow, W. Schade; Photonic sensors for explosive detection (Invited Paper); Proc. of SPIE, Vol. 7945, 79452D1-79452D8 (2011)
  120. J. Burgmeier, W. Schippers, N. Emde, P. Funken, W. Schade; Femtosecond laser-inscribed fiber Bragg gratings for strain monitoring in power cables of offschore wind turbines; Applied Optics, Vol. 50, 1868-1872 (2011)
  121. J. Waltermann, K. Günther, S. Kontermann, S.R. Walfvogel, W. Schade; Electrical and photoelectrical measurements on ZnO-Nanowires coated with PEDOT: PSS for Dye-Sensitizised Solar Cells; Mater. Res. Soc. Symp. Proc. Vol. 1303, 75-80 (2011)
  122. R. Orghici, U. Willer, P. Lützow, W. Schade;  Sensitized Silicon Ring Resonators for the Detection of TNT in the Gas Phase; Conference on Lasers and Electro-Optics/Quantum Electronics, Optical Society of America; CThC2 (2011)
  123. P. Lützow, D. Pergande, H. Heidrich, R. Orghici, S. Huscher, W. Schade; Novel sensor platform for multiplexed trace detection of harzardous substances; Future Security Proceedings 2011, 289–292 (2011)
  124. M. Köhring, U. Willer, W. Schade; Optical Readout of Micro Tuning Forks for Spectroscopic Applications; Conference on Lasers and Electro-Optics/Quantum Electronics, Optical Society of America; JTuI112 (2011)
  125. W. Schippers, E. Gershnabel, J. Burgmeier, O. Katz, U. Willer, I. S. Averbukh, Y. Siberberg, W. Schade; Stimulated Raman rotational photoacoustic spectroscopy using a quartz tuning fork and femtosecond excitation; Applied Physics B, Vol. 105, 203-211 (2011)
  126. J. Burgmeier, P. Funken, W. Schade; Strain monitoring in power cables of offshore wind energy plants with femtosecond laser inscribed fibre Bragg gratings; Proc. of SPIE, Vol. 7753, 7753821-7753824 (2011)
  127. T. Gimpel, K.-M. Günther, S. Kontermann, W. Schade; Study on contact materials for sulfur hyperdoped black silicon; Proceedings of the 37th IEEE PVSC, Seattle, Washington, USA, 002061-002065; doi: 10.1109/PVSC.2011.6186358 (2011)

    2012

  128. W. Schade, R. Orghici, M. Mordmüller, U. Willer; Detection of Explosives in Handbook of Biophotonics, Vol.3: Photonics in Pharmaceutics, Bioanalysis and Environmental Research, First Edition; Wiley-VCH Verlag GmbH & Co., pp. 195-218 (2012)
  129. M. Köhring, U. Willer, W. Schade; Miniaturized Fiber-coupled Trace Gas Sensors based on Photoacoustic Spectroscopy; Lasers, Sources, and Related Photonic Devices, Optical Society of America; LW5B.7 (2012)
  130. R. Orghici, P. Lützow, W. Schade; Trace Detection of Explosives by Microring Resonators; Lasers, Sources, and Related Photonic Devices, Optical Society of America; LW5B.8 (2012)
  131. K.-M. Günther, H. Witte, A. Krost, S. Kontermann, W. Schade; Extracting accurate capacitance voltage curves from impedance spectroscopy; Applied Physics Letters 100, 042101 (2012)
  132. S. Kontermann, A. L. Baumann, T. Gimpel, K.M. Guenther, A. Ruibys, Ulrike Willer, W. Schade; Structural and optical property tailoring of black silicon with fs-laser pulses; MRS Proceedings, 1405, mrsf11-1405-y03-03; doi:10.1557/opl.2012.20 (2012)
  133. K.-M. Günther, T. Gimpel, A. L. Baumann, S. Kontermann, W. Schade; Tandem solar cell concept using Black Silicon for enhanced infrared absorption; Energy Procedia 27 555-560 (2012)
  134. T. Gimpel, I. Höger, F. Falk, W. Schade, S. Kontermann; Electron backscatter diffraction on femtosecond laser sulfur hyperdoped silicon; Applied Physics Letters 101, 111911 (2012)
  135. M. Mordmueller, U. Willer, W. Schade; Detection of explosives using pulsed laser fragmentation and MIR spectroscopy; Encyclopedia of Analytical Chemistry, John Wiley & Sons, Ltd., pp. 1-17 (2012)
  136. J. Burgmeier, J. Koch, W. Schade; Intensity-independent fiber coupled interrogation technique for fiber Bragg gratings by fiber Bragg gratings; Proc. of SPIE Vol. 8421, 84215G-1 - 84215G-4 (2012)
  137. S. Liehr, J. Burgmeier, K. Krebbera, W. Schade; Fiber optic bend and temperature sensing in femtosecond laserstructured POF; Proc. of SPIE Vol. 8421, 84213I-1 - 84213I-4 (2012)
  138. M. Köhring, U. Willer, S. Böttger, A. Pohlkötter, W. Schade; Fiber-Coupled Ozone Sensor Based on Tuning Fork-Enhanced Interferometric Photoacoustic Spectroscopy (Invited Paper); IEEE Journal of Selected Topics in Quantum Electronics, Vol. 18, No. 5, 1566-1572 (2012)
  139. J. Koch, M. Angelmahr, W. Schade Arrayed waveguide grating interrogator for fiber Bragg grating sensors: measurement and simulation Applied Optics Vol. 51 (31), 7718–7723 (2012)
  140. M. Thiel, G. Flachenecker, W. Schade Direct writing of Bragg grating structures in waveguide bundles Optical Society of America; JM5A.57 (2012)

  141. 2013
  142. K.-M. Günther, T. Gimpel, S. Kontermann, W. Schade Investigation of the sulfur doping profile in femtosecond-laser processed silicon Applied Physics Letters 102, 202104 (2013); doi: 10.1063/1.4807679
  143. P. Saring, A. L. Baumann, B. Schlieper-Ludewig, S. Kontermann, W. Schade, M. Seibt Electronic and structural properties of femtosecond laser sulfur hyperdoped silicon pn-junctions Applied Physics Letters 103, 061904 (2013)
  144. F. F. Comjani, U. Willer, S. Kontermann, W. Schade Synthesis of ZnO nanowalls and nanocombs by vapor–liquid–solid method physica  status solidi  (a) 210 (10), 2219-2223 (2013)
  145. M. Köhring, U. Willer, W. Schade Resonant photoacoustic gas sensing with silicon tuning forks Conference on Lasers and Electro-Optics/Quantum Electronics, Optical Society of America; CW3L.2 (2013)
  146. S. Böttger, U. Willer, W. Schade Absorption Spectroscopy of CO2 at 4.3µm Utilizing an Off-Beam QEPAS Spectrophone and an IR-LED Conference on Lasers and Electro-Optics/Quantum Electronics, Optical Society of America; JW2A.70 (2013)
  147. M. Köhring, S. Böttger, U. Willer, W. Schade Temperature effects in tuning fork enhanced interferometric photoacoustic spectroscopy Optics Express, 21 (18), 20911-20922 (2013)
  148. S. Böttger, M. Köhring, U. Willer, W. Schade Off-Beam Quartz-Enhanced Photoacoustic Spectroscopy with LEDs Appl. Phys B. 113, (2), 227-232 (2013)
  149. F. F. Comjani, U. Willer, S. Kontermann, W. Schade Modelling the growth of ZnO nanocombs based on the piezoelectric effect AIP Advances 3 (10), 102102 (2013)
  150. S. Liehr, J. Burgmeier, K. Krebber, W. Schade Femtosecond Laser Structuring of Polymer Optical Fibers for Backscatter Sensing Journal of Lightwave Technology 31 (9), 1418-1425 (2013)
  151. U. Willer, M. Mordmüller, and W. Schade Application of Quantum Cascade Lasers for Safety and Security in The Wonder of Nanotechnology: Quantum Optoelectronic Devices and Applications, M. Razeghi. L. Esaki, and K. von Klitzing, Eds., SPIE Press, Bellingham, WA, pp. 633-643 (2013).
  152. K.-M. Guenther, T. Gimpel, W. Schade, and S. Kontermann Using Impedance Spectroscopy for Enhanced Capacitance-Voltage Measurements on Solar Cells with Multiple Space Charge Regions and a Structured Surface Proceedings of the 39th IEEE PVSC, Tampa, Florida, USA, p. in print (2013).

  153. 2014
  154. K.-M. Günther, T. Gimpel, J. W. Tomm, S. Winter, A. Ruibys, S. Kontermann, W. Schade Excess carrier generation in femtosecond-laser processed sulfur doped silicon by means of sub-bandgap illumination Applied Physics Letters 104, 042107 (2014)
  155. F. Fattahi Comjani, U. Willer, S. Kontermann, W. Schade Influence of the metal-semiconductor contact by energy harvesting from vertically aligned zine oxide nanowires Applied Physics Letters 104, 143113 (2014)
  156. J. Burgmeier, C. Waltermann, G. Flachenecker, W. Schade Point-by-point inscription of phase-shifted fiber Bragg gratings with electro-optic amplitude modulated femtosecond laser pulses Optics Letters 39 (3), 540-543 (2014)
  157. P. Saring, A. L. Baumann, S. Kontermann, W. Schade, and M. Seibt Characterization of electrical contacts on silicon (100) after ablation and sulfur doping by femtosecond laser pulses, Proceedings of Gettering and Defect Engineering in Semiconductor Technology (GaDEST) Oxford, UK, (2013), published in Solid State Phenomena Vols. 205-206 (2014) pp 358-363, doi:10.4028/www.scientific.net/SSP.205-206.358
  158. T. Gimpel, K.-M. Guenther, S. Kontermann, and W. Schade Experimental Implementation of a silicon wafer tandem solar cell Energy Procedia 55, 186-189 (2014)
  159. W. Schippers, M. Köhring, S. Böttger, U. Willer, G. Flachenecker, W. Schade Simultaneous detection of Raman- and collision-induced molecular rotations of O2 and N2 via femtosecond multi-pulses in combination with quartz-enhanced photoacoustic spectroscopy; Appl. Phys. B 116 (1), 53–60 (2014) DOI 10.1007/s00340-013-5647-3
  160. T. Gimpel, K.-M. Günther, S. Kontermann, W. Schade Current-voltage characteristic and sheet resistances after annealing of femtosecond laser processed sulfur emitters for silicon solar cells Applied Physics Letters 105, 053504 (2014) DOI: 10.1063/1.4892474

  161. C. Waltermann, J. Koch, M. Angelmahra, W. Schade, M. Witte, N. Kohn, D. Wilhelm, A. Schneider, S. Reiser, H. Feussnerb Femtosecond Laser Aided Processing of Optical Sensor Fibers for 3D Medical Navigation and Tracking (FiberNavi) Proc. SPIE 9157, 23rd International Conference on Optical Fibre Sensors, 91577G (June 2, 2014) DOI  10.1117/12.2059599

  162. 2015

  163. M. Thiel, F. Flachenecker, W. Schade; Femtosecond laser writing of Bragg grating waveguide bundles in bulk glass; Opt. Lett. 40, Vol .7, 1266-1269 (2015)
  164. J. Burgmeier, A. Feizpour, W. Schade, B. M. Reinhard; Plasmonic nanoshell functionalized etched fiber Bragg gratings for highly sensitive refractive index measurements, Optics letters, 40(4), 546-549 (2015)
  165. C. Waltermann, A. Doering, M. Köhring, M. Angelmahr and W. Schade; Cladding waveguide gratings in standard single mode fiber for 3D shape sensing, Optics letters (13):3109-12. DOI: 10.1364/OL.40.003109 (2015)
  166. M. Mordmüller, M. Köhring, W. Schade, U. Willer; An electrically and optically cooperated QEPAS device for highly integrated gas sensors, Applied Physics B 119, No. 1, pp. 111-118 (2015); DOI: 10.1007/s00340-015-60379
  167. Stefan Kontermann, Anna Lena Baumann, Thomas Gimpel, Andreas Gabler, Wolfgang Schippers, Philipp Saring, Michael Seibt, and Wolfgang Schade; Tailored material functionalization by femtosecond laser pulses; In book: Laser Ablation: Fundamentals, Methods and Applications, Edition: First, Chapter: 4, Publisher: Nova Science Publishers, New York, Editors: Christoph Gerhard, Stephan Wieneke, Wolfgang Viöl, ISBN: 9781634825894 (2015)
  168. M. Köhring, S. Böttger, U. Willer, W. Schade; LED-Absorption-QEPAS Sensor for Biogas Plants; Sensors, 15,12092-12102 (2015)
  169. E. Pichler, K. Bethmann, U. Zywietz, U. Gleissner, C. Kelb, B. Roth, C. Reinhardt, U. Willer, W.Schade; Ring resonators in polymer foils for sensing of gaseous species; Proc. SPIE 9486, Advanced Environmental, Chemical, and Biological Sensing Technologies XII, 948613 (2015)
  170. Jan Meyer, Antonio Nedjalkov, Alexander Doering, Martin Angelmahr, Wolfgang Schade; Fiber optical sensors for enhanved battery safety, Proc. SPIE 9480, Fiber Optic Sensors and Applications XII, 94800Z (2015)
  171. Bethmann, K., Orghici, R., Pichler, E., Zywietz, U., Schmidt, T., Gleissner, U., Kelb, C., Roth, B., Reinhardt, C., Willer, U., Schade, W.; New design for a wavelength demultiplexing device, Proc. Of SPIE, 9480, 948010-1 – 948010-7, DOI: 10.1117/12.2183328 (2015)
  172. C. Waltermann; A. L. Baumann; K. Bethmann; A. Doering; J. Koch; M. Angelmahr, W. Schade; Femtosecond laser processing of evanescence field coupled waveguides in single mode glass fibers for optical 3D shape sensing and navigation, Proc. SPIE 9480, 948011-1 – 948011-8, DOI: 10.11117/12.2183334 (2015)
  173. Waltermann, C., Koch, J., Angelmahr, M., Burgmeier, J., Thiel, M., Schade, W.: Fiber-Optical 3D Shape sensing, in Marowsky, G. (Hrsg.): Planar Waveguides and other Confined Geometries, 227-250, DOI: 10.1007/978-1-4939-1179-0 (2015)
  174. J. Koch, M. Angelmahr, W. Schade; High frequency strain measurements with fiber Bragg grating sensors, Proc. SPIE 9480, Fiber Optic Sensors and Applications XII, 94800Y (May 13, 2015); doi: 10.1117/12.2183324 (2015)

    2016

  175. A. Nedjalkov, J. Meyer, M. Köhring, A. Doering, M. Angelmahr, S. Dahle, A. Sander, A. Fischer, W. Schade; Toxic Gas Emissions from Damaged Lithium Ion Batteries—Analysis and Safety Enhancement Solution, Batteries, 2(1), 5; doi:10.3390/batteries2010005 (2016)
  176. R. Orghici, K. Bethmann, U. Zywietz, C. Reinhardt, W. Schade; All-polymer arrayed waveguide grating at 850  nm: design, fabrication, and characterization, Opt. Lett. 41(17), 3940-3943 (2016)
 

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